Study Talk 3: Bye Bye Math

We've invited 6 UK institutions to have a chat on courses that do not require you to be good in Maths.
These subjects are:
  • MBA
  • ACCA accounting
  • Visual Effects & Game Art
  • Fashion (Branding & Management)
  • Psychology
  • Law
Register Here

About

  1. Gain specialist knowledge and practical skills with our exciting new suite of engineering degrees, offering industry-relevant majors aligned with current and future STEM careers
  2. Connect with industry employers at our Ingenuity expo – the largest university engineering, computer and mathematical sciences showcase of its kind in South Australia
  3. Ranked 43 in the Academic Ranking of World Universities for Computer Science and Engineering (Academic Ranking of World Universities 2018) – the only South Australian University in the top 50
Subjects / Discipline SA Australia Global
Mining & Mineral Engineering 1 1st 2nd 7th
Civil Engineering 1 1st 3rd 25th
Automation & Control 1 1st 3rd 24th
Water Resources 1 2nd 4th 31st
Electrical and Electronic Engineering 1 1st 1st 42nd
Computer Science and Engineering 1 1st 2nd 40th
Mechanical Engineering 1 1st 4th 76 – 100
Energy Science & Engineering 1 1st 6th 76 – 100
Architecture 2 1st 10th 101 – 150

1 Academic Rankings of World Universities 2020
2 QS Top Universities Rakings by Subject 2020

Bachelor of Engineering

Engineers design, build and improve structures, systems, devices, machines, materials and processes to overcome challenges.

With exciting new industry-focused majors and minors, our engineering degrees offer enormous breadth, choice and flexibility, enabling you to pursue an area of particular interest and launch a future-focused career.

Bachelor of Engineering
(Honours)(Electrical & Electronic)

Duration:4 Years Intakes:Feb, Jul

Electrical & electronic engineering affects every aspect of modern life; and the University of Adelaide – ranked 44 in the world for Electrical and Electronic Engineering*.

Students learn among state-of-the-art facilities, including 3D prototyping, autonomous vehicles and electric machines labs. They’re guided by internationally renowned academics, all of whom undertake practical work and research in the field. And they collaborate with industry partners on exciting and innovative projects. Students can also undertake an internship to apply their skills and work directly with potential employers.
* Shanghai Jiao Tong for 2017

Majors

  • Communication Systems
  • Computer Engineering
  • Cyber Security
  • Defence Systems
  • Medical Technologies
  • Smart Technologies
  • Renewable Energy

Bachelor of Engineering
(Honours)(Mechanical)

Duration:4 Years Intakes:Feb, Jul

From defence systems to robotics, sports to outer space, mechanical engineering: the creation and design of things that move, offers a wide variety of exciting career options.

The Bachelor of Engineering (Honours)(Mechanical) provides a strong foundation in core mechanical engineering disciplines, with a focus on developing creativity and design skills utilising the state-of-the-art facilities.

Students have the opportunity to work directly with industry experts throughout their degree, with a range of internships and placements offered.

These allow the students to hone practical, real world skills from their industry-led final year projects towards developing a professional portfolio.

Majors
All graduates of this degree-irrespective of major-qualify as mechanical engineers, and can pursue a career in any specialist field within the profession. Majors available are:

  • Aerospace Engineering
  • Defence Systems
  • Mechanical Engineering
  • Mechatronics and Robotics
  • Medical Technologies
  • Sports Engineering
  • Smart Technologies
  • Renewable Energy

Bachelor of Engineering
(Honours)(Chemical)

Duration:4 Years Intakes:Feb, Jul

This programs is interactive from the very first year. You’ll work with award-winning and industry-connected researchers and teachers as you:

  • use knowledge and skills from engineering, chemistry, maths and biology to produce chemicals, fuel, drugs, and food
  • learn how results in the lab scale up for commercial production
  • undertake projects with external groups such as Engineers Without Borders
  • benefit from tours, projects, and placements with companies like PepsiCo, Smiths Crisps, Jurlique, and BHP
  • complete an eight-week practical experience.

Majors are available in:

  • Minerals processing
  • Pharmaceutical engineering
  • Renewable energy.

Where could it take you?
You could come up with better ways to control air pollution or turn saltwater into fresh water. You might work alongside craft beer brewers. Perhaps you’ll mass-produce a biodegradable version of plastic or move into the exciting world of tissue engineering.

Bachelor of Engineering
(Honours)(Software)

Duration:4 Years Intakes:Feb, Jul

Studying software engineering will prepare you to drive software solutions to enhance our future for generations to come.

The Bachelor of Engineering (Honours) (Software) combines the underlying principles of software engineering with strong technical and leadership skills. You will:

  • tackle real-world, open-ended and complex programming problems
  • take new and refreshed courses that emphasise divergent thinking, collaborative learning and teamwork
  • work with industry mentors

    • pursue work experience and internship opportunities with some of the world’s best-known companies
    complete an eight-week practical experience.

Majors are available in:

  • Defence systems
  • Smart technologies.

A Minor is available in:

  • Entrepreneurship.

Where could it take you?
Software engineering graduates are highly sought after by top companies around the globe. As an accredited engineer, you could develop software for mobile robots and driverless cars. You might create and test video gaming experiences. Perhaps you’ll design apps or entirely new smart technologies. In the software engineering landscape, you can code your own adventure.

Bachelor of Engineering
(Honours)(Environmental)

Duration:4 Years Intakes:Feb, Jul

Want to design solutions to some of the planet’s most challenging problems?

As populations expand and humanity demands more of our natural resources, environmental engineers work to combat negative impacts of human activities on the environment. They reduce waste, promote eco-design and strive to improve our environmental systems.

Our Bachelor of Engineering (Honours)(Environmental) will challenge and nurture you in a team environment. You will:

  • learn about connections between infrastructure, environment, society, and economy in the developed and developing world
  • build technical skills for tackling complex problems around water, energy, food, pollution, waste, and natural hazards
  • work with award-winning academics who are global experts in their field
  • apply your knowledge to real-world projects based on industry needs
  • complete an eight-week practical experience.

Majors are available in:

  • Defence systems
  • Renewable energy
  • Smart technologies.

Minors are available in:

  • Entrepreneurship
  • Humanitarian

Where could it take you?
As an accredited engineer, you could manage coastal erosion, develop policy on energy futures or design recycling schemes. You might address development issues in Southeast Asia. Perhaps you’ll work for the United Nations or monitor the impacts of climate change on populated regions.

Want to venture into Engineering industry?
Education is the ticket, our consultation is free of charge.

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Engineering (Postgraduate)

Master of Biopharmaceutical Engineering

Duration:2 Years

Biopharmaceuticals have a critical role to play in improving global health. The more effectively and efficiently these powerful medicines can be designed and produced, the more lives they will save.

Professionals with specialist biopharmaceutical engineering training are in demand worldwide. Our new Master of Biopharmaceutical Engineering will prepare you to take up the challenge.

What will you do?
Suitable for chemical engineering and biological science graduates, as well as engineers with relevant work experience.

The first year is a blend of face-to-face and online course work. You will gain a comprehensive understanding of biopharmaceutical manufacturing’s technical, management and process engineering aspects.

In year two, you will undertake a significant research project with supervision and mentorship from one of our world-class research-active academics and/or a recognised industry expert. You will emerge with:

  • comprehensive awareness of global biopharmaceutical market demands and regulatory requirements
  • advanced knowledge and capability in state-of-the-art biopharmaceutical engineering, manufacturing and processing practice, including advanced processing technologies
  • the ability to critically reflect on appropriate use of biopharmaceutical principles and techniques, and advise others accordingly
  • deep understanding of the industry’s social and environmental impacts
  • high-level problem-solving and communication skills.

Where could it take you?
You will graduate ready to play a leading role in cutting-edge biopharmaceutical engineering anywhere in the world. You could help design and/or deliver next-level manufacturing and processing of therapies based on monoclonal antibodies, recombinant human insulin or interferons. Your work could reduce the toll of cancer, cardiovascular disease or diabetes. You may even choose to follow the masters course with research towards a PhD.

Master of Data Science

Duration:2 Years

Big data and data science is an emerging area of necessity for many fields—from science and engineering to economics and digital humanities.

The Master of Data Science explores how data is changing our world. We give you the knowledge and skills to contribute in the areas you care about.

What will you do?

  • Undertake a specialised introductory IT program in your first semester.
  • Build core skills in programming, mathematics and data science.
  • Learn how data science techniques can drive changes in organisations, industries and communities.
  • Advance your abilities in chosen areas of interest.
  • Combine and apply your learning in a significant project.

Where could it take you?
You might help big businesses use data to make more informed decisions in the face of uncertainty. You could analyse data from apps to drive UX updates. Perhaps you’ll come up with innovative management systems as a data architect.

Master of Engineering (Mechatronic)

Duration:2 Years

Mechatronic engineering combines mechanics, electronics and computing. Mechatronic engineers work comfortably across all three areas, often creating complex and intelligent technologies.

This intensive degree is suited to high-achieving engineering graduates, as well as engineers with relevant work experience. It is fully accredited by Engineers Australia.

What will you do?
The Master of Engineering (Mechatronic) comprises a foundation year and an advanced studies year. You will:

  • take advanced courses in mechanical engineering and programming
  • gain hands-on mechatronic experience through small-group projects
  • pursue specialist topics according to your interests and career goals
  • build communication and project management skills
    undertake a significant research project.

Where could it take you?
You might design and optimise micro-machines, craft the next generation of cameras or help build underwater exploration vehicles. You could maintain a fully automated robotic assembly line. Perhaps you’ll develop cutting-edge defence or medical technologies.

Master of Materials Engineering

Duration:2 Years

Investment in the advanced materials market is expanding the world over—in the space industry, medical technologies, defence, manufacturing, energy, telecommunications and more. Experts with the advanced capabilities to lead discoveries in materials engineering are in high demand.

What will you do?
The Master of Materials Engineering will equip you with high-level knowledge—and practical research skills—at the real-world interface between materials engineering, chemistry and physics.

The industry-driven content is delivered over two years full-time, through a flexible blend of online and intensive face-to-face learning; and if you’re currently employed full-time and looking to upskill, you can make the study fit you by taking courses individually or combined as a graduate diploma or certificate.

You will:

  • work in the University’s state-of-the-art engineering research labs
  • have access to cutting-edge on-campus research and development facilities
  • be mentored by world-class materials engineering researchers—including from the University of Adelaide Centre for Materials in Energy and Catalysis, and the ARC Research Hub for Graphene Enabled Industry Transformation.
  • You’ll also be able to take specialist courses in your chosen major: Energy; Quantum; or Optical. And you’ll apply and expand your learning through a major research project supervised by leading Adelaide engineers and scientists.

Where could it take you?
You could enable smaller, more energy dense batteries. You might allow creation of a high-agility suit for more productive spacewalks. Perhaps your innovation will lead to the conversion of sunlight into transportable fuels to power our cars and society. You may even wish to continue your studies in a materials engineering PhD.

Need more details? There are a lot more programs available!
Contact us, our consultation is free of charge.

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